Apparatus for manufacture of paper vessels.



E. Z. TAYLOR. APPARATUS FOB. MANUFACTUBE DF PAPER VESSELS APPLIOATION FILED vJUNftrl, 1909.

Patented 11211228, 1911.l

6 SHEETS-SHEET 1.

I. E. Z. TAYLOR.

APPARATUS FOB. MANUPAGTURE 0F PAPER VESSELS.

APPLICATION FILED JUNE 16, 1909.

- Patented 111211228, 1911.

l 6 SHEETS-SHEET 2.

E. z. TAYLOR. APPARATUS FR MANUFACTURB 0F PAPER VESSELS. APPLOATION FILED JUNE 16, 1909.

987,928, A Patented Mar. 28, 1911.

6 SHEETS-SHEET 3.

"E. z. TAYLOR. APPARATUS POB. MANUFAGTURE 0F PAPER VESSELS.

APPLICATION FILED JUNE 16, 1909.

Patented Mar.28,19111.

e sums-SHEET 4.

"hllllf,

E. Z. TAYLOlI APPARATUS POR MANUFAGTURE 0F PAPER VBSSELS. .I APPLICATION FILED JUNE 16, 1909. ,92g Patented 11111.28, 1911.

SHEETB`BHEET 5.

a. .//l Fic. l

E. Z. TAYLOR.

APPARATUS POR rxNuP-AcTuRP 0F PAPER VEssPLs.

APPLICATION I'ILED .TUNE 16, 1909.

Patented Mar. 28, 1911.

6 SHEETS-SHEET 6.

Hc. l5;

has been-devised.

UNITED sTATEs ELMEE 4zEELEY TAYLon,oF LoNnoN, ENGLAND, AssIGNon, EY MEsNEAssIGNMENTs,

PATENT f oEEioE.

' TO AMERICAN MONO SERVICE COMPANY, dF ATLANTIC CITY', NEW JERSEY?, A COR- POBATION F NEW JERSEY. 4

'APPARATUS ron MANUFA'cTUnE or PAPER vrssnns.v

Specification of Letters Patent. A Patented lWar. 28, 1911.' Application mea June is, 1909 seria; 1ro. 502,574.

To all 'wwm 'it may concern.' Be it known that I, ELMER ZEBLEY TArLoma citizen of the United States, re,- Asiding at 40, 4.1, and 42 Percival street, Goswell Road, in Vthe city of London, England, engineer, have' invented certain new and useful Improvements `in Apparatus for the` Manufacture of Paper Vessels, of which the following is a specification. This invention has for its dbject to provide a single machine by which the various operations necessary. in the manufacture. of

paper vessels may be expeditiously and continuously performed, itonl being necessary .necessary forms to constitute, the sides and bottoms of the vessels and to operate same by any. suitable source of power.

`The Vessels for the manufacture of which the machine'is particularly intended are usually of conical form, tapering slightly from' the-top downward and having a bottom-secured therein, and are more especially intended for use in theV delivery of milk or cream to" customers and to be 'destroyed after being once used, so that it is necessary to reduce the cost of manufacture thereof as much asipgssble, and itis for this purpose that .the present machine, by which all the Y Ynecessaryoperations can be etlciently and economically carried' out ata high speed,

-decbed 'in .eemncction with the vaccompanying draw- I: The-'invention will now he of the complete machine or ofthe various :mechanisms for carrying out the different aim is; not laid` to any particular form of the' vaHouS-co-acting mechanisms hereinafter referred to, the invention consisting in the combination rather than in the individual construction or arrangement of the' diierent'elcments employed.L A

In athe accompanying drawings 'f-Fig'ure l is a side elevation Of the machine, some parte being omitted, and Fig. 2 is a plan View with parts in section and other. parts removed to illustrate'devicesl omitted from or not clearly shown in Fig. 1. Fig. Sis a view illustrating the method of intermitto supply such machine with blanks ofthe ings,.whieh illustrate a suitable form thereo -ratiois. It must also be understood that.

-inafte'r descri on a larger scale showing. the bottom pasttently drivin and spacing the carrier here- 5- %ied.- Fig. 4 is a sectional view ing, turning in and rolling out appliances and the mechanism connected therewith. Fig. `5 is a diagrammatic view of the gearing l employed in Aconnection with these mechanisms. Fig. 6 is a ysectional view- 0f the mechanism for w'axing the outer surface of the vessel, and Fig. 7 is a view showing the top pasting,= turning in and rolling out mechanisms, and the mechanism for waxing the inner surface of the vessel. Fig. 8 is a sectional view of the pastingboard showing thesuckers in lthe peration of taking a blank. from the hold rs. Fig. 9 is a cross sectional view of the mandrel and its sheath. Fig. 10 is a longitudinal sectional. View thereof., Fig. 11 is. an end' elevation of the structure shown in Fig. 10. Fig. 12 is a sectional view of the mechanism for; shapin I the bottoms. Fig. 13is a plan View thereo Inthe following description a single4 device only for carrying out each ofthe differ# ent operations is described butin the ferred construction of machine such devices are duplicated on each side of the carrier employed,- which in this 4case isas shown pre-- l in Fig. 2 provided on eachside with pockets I to receive the vessels and -convey them to.

the different mechanisms for acting thereon. *The'various operations to be carried out 'be described.

Mecktm'sm for blanke-The blan are contained in va 4holder 1l pro-vided with a pusher 2 to normally. keep the series pressed toward the 'delivery end thereof. On the machine a pair of suckersl 3 is pivoted, these being capable lof. turning to bring their-operating faces vfrom the horizontal position shown in. Fig. 2 upward against theQforemost blank 'and suitable forms of apparatus will n'ow ceding z'namil pasting l ofthe series contained ,in .holder 1, and' when inthis position a connection with an exhaust blower is opened sothat such foremost bla-nk is caused to adhere to such When such blank has been depositedon` the pasting board 5 the mechanism for applying paste or the like commences. to operate. Thismechanism comprises a paste box 6 the bottom of which is closed by a pair of conicalrollers 7 mounted therein andthe surfaces of which project therethrough. This pasting box 6 is carried by arms 8 p ivotcd at 9 in a bracket on the frame 10 of the-machine, and has a reciprocating movement imparted to it by means of a rack 11and sector 12, -such rack being operated by ing board 5 and by means of its rollers 7 paste sufficient of thelength of such blank to cause the latter to keepits shape when rolled up as hereinafter described. As soon as suiicient of the length of the blank has been pasted the paste box is lifted from contact with the blank, which may be efis adapte bevel gearing 28 by means of 'chain wheels 29 and 30 mounted respectively on the shafts 3l and 16. The inner end .of 'the mandrel or former is partially surrounded by a fected by means of the lever 17 acting on its pivot 9 and operated byl means of crank 18,

connecting rod 19, crank 20 and lever 21 from cam 22 mounted on shaft 23. The arms 8 on which paste box 6 is'mounted continue their movement after such paste box has been lifted from contact with the blank, and a pro]ect1on 24 on one thereof comes in contact wlth one arm of a catch 25 mounted on lever 26 which carries the pasting board 5. at this point the connection with the .suct1on pump 1s broken by a suitable cam and valve, and further movement of projection 24 on arm 8 carries pasting board 5l forward by means of stop 260, thus feeding the blank to the means employed for rolling the llatter path and cause it to wrap itself around the Amandrel during the continued rotation of into shape. e

- It will be seen that the pasting board 5 is of segmental form and has a sloping upper surfaceicorresponding with the incline of the under surface of the mandrel 27. Through the pasting board are holes permlttllng of themovement of the suckers 3, and the board itself is carried by a lever 26 pivoted at 9, on which it can turn to bring the forward 'edge of the board into' close proximity to the mandrel 27.v -This movement of the pasting board is e'ected'by paste box arm 8 as described, and the return movement thereof may be effected by a spring such as that shown at 268 in Fig. 8, the opposite ends of which are respectively .connected to the under side of the blank holder 1 and the pasting board 5.

Mechanism for rolling blanka-Thislximprises a mandrel or' former 27 of conical form and (preferablycollapsible, and which to be continuously rotated by sheath 32, sufficient space being left between such mandrel and the sheath to permit the blankto enter and. lie around the mandrel, the object of providing such sheath being to cause the blank to follow the formof the mandrel instead .of remainingflat as would otherwisevnormally be the case. Below the mandrel a supporting roller 33, also of conical form, is mounted, same being free to rotate and being carried by arms mounted on a spindle 34`which is normally kept in'its raised positionby means of aweight 35 carried by a lever 36 suitably connected to i such spindle. When the .pasted blank is D carried forward as previously described its forward end isf gripped between the mandrel 27 and roller 33, and it is then, by the rotary movement imparted to such mandrel, drawn away from the pasting board and rolled up into the desired shape, the mandrel 27, free roller 33 below same, and sheathA 32 surrounding theY mandrel all coperating to effect this object. The' blank is usually of such length that the sides ofthe vessel will be formedofa double thickness of the material employed, and in case the pasting operation will preferably cover about half/ l of the' blank with paste, and this pasted por-l tion will by the rolling operation described be brou ht into contact .with the unpasted part an caused to adhere thereto.l

As will be seen by reference to. Fig. 9, the

sheath 32 surrounds the mandrel 27, almost completely, itsopen portions being so disposed that-after the forward edge of the Ablank has passed between the mandrel 27 and the supporting roller 33 it will comev in contact with a portion of 'sheath 32 lying at i such anangle as to deflect it from a stralght Y the latter. The sheath is formed'of light flexible metal and ides the blank so far around the mandrelglhat its forward edge will again enter between the mandrel and llO supporting roller to admit'of the pasted outer ply of material be' wound around .the unpasted inner ply. .he sheath 32'isV supported in any suita le manner'so thatit does not move forward with the mandrel when the latter advances to deliver the rolled blank into'one lof the pockets 41 of the carrier-42,such sheath being as above stated of flexible lmaterial Yso that it-will simply be extended by the larger end of the conical Y mandrel and aroundl the smaller end vof the latter when resume its. vnormal position vthe parts return to the position for receiving a fresh blank."

When the pasting board 5 has delivered the pasted blank to the mandrel 27, the

former will return to its or' al position ready to receive another bla movement being referably utiiized to` op erate by any suita le means the screw 37 by this return I 30 in Fig. 1 bepivoted'on shaft 16.

which the vpusher 2 for moving the series of blanks forward is actuated. On the completion-of the return movement of the pasting board lever 26 thetrip 25 Will engage the 5 notch 38 in lever 39 and thepartswill be brought to rest in position for 'a further operation.v j 4 When' the-'rolling ofthe blank `V`has been completed, lthe sleeve 40; in which the man- 10 drelspindle is rotatably mounted is caused to'advance and'carry the rolled up blank into one of a series of pockets 41 mounted i subsequent return can be conveniently eii'ected by means of the lever 43, crank 44 and' roller 4 5-operated by cam 46 'mounted' on shaft 16. In order vthat the mandrel 27 may deliver it-he rolled -blankl centrally into thepocket 41 which is in position to receive it, the rear end of its sleeve 40 is preferably supported by alever 47 V.mounted parallel with and p rtaking of the movementiiniparted to lever 43, 'and which may asshown As hereinbefore'. stated the'mandrel I27 is preferably made collapsible, in which caseit may be arranged to remain slightly expanded in diameter during the operation of rolling Aup 'the blank,l and` to be slightly contractedat the moment it has brought the rolled blank -into position in pocket 41, thus yfacilitating the release of such blank therefrom. 40

the proper diameter for the rolling of thel blank, but such head is capable of move- 5o' ment (which may be imparted thereto by a rod ,272' the opposite end of which isacted on by an arm or lever 273 operated by a cam or otherwise. from shaft 16), so that 'when t'hemandrel has been advanced to deliver the rolled blank tothe pocket 41 the head will be Withdrawn farther intos the mandrel permitting the latter tospring b ck to its smaller normal "diameter and thus releasing the rolled blank therefrom. The carrier. (md driving mechanism- The carrier may as shown .consist of a Wheel 42 mounted on central shaft 48 and adapted to be intermittently rotated, each movement being just suii'cient'to bring the next pocket 41afte'r the one in which a rolled blank has In Figs.. `10 and 11, it will be seen that the 'A mandrel is split from its smaller end for the been inserted intoposition opposite the, mandrel 27-to `receive the followlng rolled blank. 'The intermittent movement and the correct positioning of the wheel 42 andpockets 41 may be-e'ected in any suitab1e`=70 manner, as for example that shown in Fig.

3, in which -it will be seen that the wheel 42 is internally toothed, and a pinion 49l gears with such teeth. On the shaft ofpinion 49 a friction clutch 249 is mounted by 75 fwhich motion is communicated to the carrier, and a ratchet' 50is also secured thereon in conjunction with which a catch 51 operstes. An arm 52 on the pivot ofcatch 51 is connected,by arod 53 to another arm 54 pivoted at 55, and the outer end .of which starts the machine by entering the path of a projection 56 en wheel 57' which 1s driven from the motor shaft,58. When wheel 57 in 1, rotating Abrings projection .56 into contact With arm 54, catch -51 releases the ratchet vWheel 50 and permits the outer part of the friction clutch 249 to rotate the inner part thereof, which 'is mounted onftheshaft of pinion` 49 and therefore drives Wheel 42. On the :frame is pivoted a (am 59 which isI driven yfrom the shaft of pinion 49 and to- Ward thel end of each movement of Wheell 42 comes in contact with and depresses an arm 60 connected with band 'brake 61 passing around the periphery of wheel, 42, and thus puts, on the brake so as to bring the machine toa gradual stop at 'the' end of each intermittent movement.'

The motionV of the m'otonshaft is communicated to cross shaft 23 and from thence by bevel gearing 62 to `longitudinal shaft 63,' which at the other endofthe machine drives cross shaft 16 by means of bevel gearing 64. On the cross shafts23 and 16 most of the cams hereinbefore and hereinafter referred to for operating the .differentparts of the entire machine are mounted, but it mustbe understood that the invention is not. con-l fined to this particular arrangement of driv' ing mechanism, as any other suitable arrangement may be adopted.

` Immediately the mandrel27 has inserted the rolled blank into the pocket 41 whichwas in position to receive it, such mandrel is returned toits rearward position by means of the cam 46, andthe carrier 42 then operates to bring 4the neXt pocket into posit-ion. In the arrangement illustrated in the drawings the complete rotation ofl the carrier is 120 effected in twenty-one steps, and in the subsequent description of the diii'erent operations te' be effected in the manufacture and delivery of thevessel such' operationswill be referred to as taking place at the first, second, etc., positions, that at which' the rolled blank 4 is delivered by the mandrel into one ofthe pockets being'the irst. As (including-such delivery) there are ten different operations to be performed, it will be seen that Vat eertain of the stopping positions nothing is done, this being for the purpose of permitt-ing of the drying of the paste, etc., veln- '.ployed, with the object of facilitating which the pockets are kept in a, heated state by means of steam or other medium, which is caused to circulate through the hollowfsides of such pockets. A

Fasting mechanism fofl bottom of vessel.-

At the third position the rolled blank has paste or the like applied to the inner surface of its lower end for the purpose of causing it to firmly holdv the bottom piece which is to-be subsequently inserted.' This pasting is effected by suitable mechanism which is 'adva-ncedyinto the rolled blank immediately same arrives in position by' means of the cam 65 which operates levers 66 and 67, the

latter having'a connecting rod 68 pivoted thereto. The upper end of such connectingv -`.rod 68 is provided with a rack and engages a pinion 69 on the shaft of w ich is a spur 4gear 70. engaging a rack \71 connected to the pasting mechanism, so that in the operation of the machine'. such mechanism will be alternately advanced and retracted; The

pasting mechanism itself may 'coinprise a.

tubular reservoir 72 the operating end of which is perforated and may be covered with alayer of felt, flannel or other suitable material which will be kept moist by the paste issuing through the perforations, and imi v part suiiicjient of such paste to the lower part of the inner surface of ,the rolled blank to cause the bottom piece whichl is to be subsequently inserted to adhere thereto. When this has been effected the pasting mechanism is withdrawn to permit carrier 42 to advance another step to thefourth position. In its advanced position lthe reservoir 72 preferably comes into eontact with an eccentric I' bush the throw of which is adjustable, such bush being continuously rotated by means of the gearing hereinafter described and being so arranged that as it advances to meet the reservoir 72it is rotating circularly,'but Vafter it lhas made contact therewith its motionbecomes eccentric, whereby it carries the reservoir around in contact with the whole ofA the lower part of the innersurface .of the vessel being operated on.

conical recess .formed in the -`end of the spindle of` the pasting mechanism. This spindle-is of small diameter so that it can spring slight-ly sideawise under the influence of the eccentric portion of the spindle of gear 112, and the paster '72 isV thereby brought into contact with the side of the vessel, around which it rolls eccentrically lower i The gearing v251 as such gear 112 is rotated, returning however to its normal central. position on the completion ofthe operation on each vessel.

Mechanism for turningc'n bottom of 'vessel-In the fourth psition of the 'carrier' the lowerledge of the vessel being formed is turned in, for the purpose of eecting which object a rotating crimper 73 may be employed and operate in conjunction with a former 74 which at the required times is advanced into the vessel, into the lower part of which it fits. The former 74 consists of a shallow cup the edges of which are of approizimately the same thickness as that of the materialemployedfor the vessels, and

its advance and withdrawal may be effected by ward and forward with the pasting mechanism just described inany suitable manner, the lever 7 5 Vcarrying same being .caused to mountingsame so as to bevcarried backturn in relation to such pastin mechanism by itsroller 76 engaging in inc ed groove 77 in the pastlng mechanismbracket, so "as Ito cause the withdrawal of the former 7 4 in the vaxial line 'of the pocket 41 in connectionvv with which it operates. y

The'crimperin conjunction with which the former-74 operates is mounted on a spin-I die 76 rotated by suitable gearing which will be more specically hereinafter referred to,

such crimper comprising a disk in the 4:face of which a circular groove'is cut into which the lower edge of the rolled blank enters. The former 74, which as stated fits into the -edge j-of the vessel, also enters the groove in crimper disk 7 3 but `not'so far as such lower edge, movement ofthe'disk 73 will be that thel lmaterial' of the vessel will be turned up linwardly intocontact with the inner edge of the latterls withdrawn onthe completion of this operation a space will lbe left between the sides of the vessel and the turned up edgeintoiwhich the flange of the bottom piece can be inserted. v shown in Figs. 1 and 13 operates a spmdle 274 from which all the movementsy necessary in the mechamsm are obtained. Such spmdle 274-by gears 275 drives a cam shaft 276, on which a cam 277 is mounted which ,is empiloyed to actuate the means for taking a dis from receptacles 79, such cam operating lever 278, connecting rod 279, lever 280,csector 281, and bevel Ygear 282 mounted on shaft 283. On the latter are mounted sectors 284 gearlng with movable racks 285 each; connected to the lower side of a sliding `plate.286, which is thus caused to reciprocate beneath receptacle 79 and in its iforward movementl to engage the -lowermost disk therein and push it for- Ward. taken from the receptacle linto plosition be. neath one of the apertures in. e plate -80y and the effect of. the rotary Ithe sides of the cup or former, so'that when This advances a' disk, previously.'

esmas pinsare at each end'jof spindle '289 and engage slides 389 the lower ends of which slipportl the die carrying frame 390; l When the Y paper' disk has been positioned' as described,

the punch 287 commences to rise and engaging the paper disk, forces it upward into the aperture in vplate 80, such aperture being of such size in relation tothe die as to allow for the thicknessoff the'paper. By these means a .downwardly depending flange is formed ontlie paperdisk, lwhich remains in the aperture in plate 80 until in the inter mitteilt rotary movement imparted to'the latter suoli aperture is brought beneath the p lunger 81. This plunger has a vertical reciprocating movement impart-ed to it by',

means of cam 292 mounted on shaft 276,

crate simultaneously. Each plunger consistsof a tube or cylinderclosely surrounding a stationary'piston 296, the effect of this construction being that as t-lie plunger moves downward it will come in -contact'with the formed up paper disk in plate 80, and asA this will close its openr lower end a VacuumA will on-the continued movementbe formed Within such plunger which will hold the paper disk on the end thereof vunt-i1 the same has been placed androll'ed in position withinf the vessel being" made, when on the return movement of the plunger the vacuum will be broken. The intermittent rotary movement of the plate 80 may be effected by the means shown, e'omprisinga bevel gea-r 297 onV a spindle 274, a bevel wheel 298 gearing therewith and mounted on a spindle 299 the upper end of which carries a gear 300 hav ing teeth at only one part of its periphery, and gear 301 with alternate sets of teeth and blank` spaces. The .teeth and blank spaces of gears 300 and 301 are sb calculatedV `and arranged that gear 309 will' impart the desired movementto gear 801,the spindle 302 o'f'which has mounted thereon-a plate;

S0,-anrl then gear 801 will. stop while gear 300 completes' its revolutionl and thereby brings its one set of teeth into engagement with the next set -of ,teeth of gear 301,10

impart a further movement -to the latter and lplate 80.

Mechanism .for inserting blank and "rollng bottom-The bottom piece is' inserted when thepockets of the carrier 41' arrive at their fifth position. A series of such bottom pieces in the foi-in of flat disks of thematerial employed is contained in a receptacle 79 and the lowermost of tlieseries is taken therefrom by suitablenieans and delivered' to adhere rmly together.

. shaft 23.

to a die to which -a reciprocating movement is imparted and whichv :forms a'downwardly extending flange on such disk of material. By this operation the bottom piece is posi'-' tion'd in one of a series of a ertures in a plate 80 to which an intermittent rotary movement is imparted, and which conveys it Ainto the axial line. of the pocket in which the rolled blank with its lower edge pastedv tia'lly completed vessel and places it in position in the latter, the turned up lower edge of which incluses the tiange of the bottom piece. The plunger 81 holds the bottom piece in position While a rolling apparatus connes into operation andV rolls thelower edge of the vessel and the flange of the bottom piece into(y close contact and causes them p The die for forming up the bottom piece, the intermittently rotating plate 80 in whic'li'such bottom piece is positioned, and the plunger .81 by which the formed bottom piece 1s inserted in the vessel, may be operated by means of bevel gearing 251 from shaft 95, operated as hereinafter described from The rolling apparatus comprises an eccen- ,trically mounted roller 82 having a conical opeiating surface and working in an opening also of 'conical form in a part 83 which is advanced to enter an annular recess in the inner end` of the pocket and so surround the outside of the lower edge of the vessel, carrying with it the eccenti'icallyV mounted roller, which enters the vessel. below the bottoni piece and in operation 1s caused to roll around the entire circumference of the inner surface of the vessel below such bot,

toni, and in so' doing` to press the outer surfaceof such vessel into contact with the conical openngin pa-rt83 in which it works,

thus causing the pasted inner surfaces of the side of the Yvessel and of the upturned edge thereof to firmly adhere to tlieflange of the bottom piece which has been introduced between them. 4

The parts of the pasting,y crimping and rolling mechanisms pist described situated carrier 42 are mounted on an arm 84 pivoted at. 85 on the frame of the machine, and are advanced to and retracted from their operative positions by meangs ofla cam 86 mounted onthe .hub of theacarrier. Such cam 86 is operated by means of connecting rod 87, lever 88, connecting rod 89, and levei` 90 through cam 91 mounted on shaft 23, and acts on a roller 92 carried by arm .on the inner side of the circumference. of

S4. The necessary rotary movementl is imparted to such pasting, crimping and rolling mechanisms from shaft 23 in therfollow'# ing manner :-On such shaft 4is a bevel wheel 93 gearing with bevel wheel 94 on shaft 95,

` from which latter motion is communicated by helical gears 96 and bevel gearing 97 to,

shaft 98. This in turn transmits its movement b v bevel gears 99 to shaft 100, having gear. wheel 106 mounted thereon engaging with gear wheel 109, the latter operating thespindle of the rolling mechanism and through the:v train of gears 110 111 and 112 the rotating parts ofthe crimping and past-l ing mechanisms.

The eccentric motion by which the rolling head 82 is brought into operation isobtained by the following means z-Siich head 82 is ,l mounted on a` spindle the' end of which carrying such head'is eccentric in relation to the main part thereof, such spindle being continuously rotated by a gear wheel 82a an a pinion 82b from spindle 100., The rolling head spindle is mounted in a sleeve having :in eccentric boi-c, such sleeve being also con-' -Atinuously rotated by ineaiis of a gear wheel 109 mounted on the same spindle as gear wheel 82a, and engaging with a pinion 109, ony the sleeve. The gear. wheels 82a and 109 are of slightly different sizes, so that in operation 'the rollingl heed s indle and the sleeve in which it is mounte will be rotated at slightly different-speeds, whereby the eccentric portions of the spindle and sleeve will be caused to gradually change their rela tive positions, these chan es' being so .timed that when the rolling hea is being advanced .to its operative position the eccentric portions counteracteach other so thatv such head is centrally dis osed in relation to the ves-' sel on which it is to operate, the change then begins to take placeuntil the eccentric portions carry theA rolling head/into contact with the vessel to eiect the rolling, and then gradually the rolling head returns toward its central position and the rolling apparatus I is withdrawn from the vessel.

The gear 110 is mounted on the sleeve carrying the rolling -headespindle, and transmits the movementimparted to it from such sleeve to the gears 111 and 112 operating the crimping and pasting mechanisms.

Mechanism for warring botto/mf of vessel-Q# In the seventh position' of the carrier 42 the outer side of lthe lower part of the vessel l being formed, which now has .its bottom piece secured therein, is treated with paraffm wax or other suitable material, which has;

the eifect both of assisting in keeping the `parts in position and of rendering' the lower edge Waterproof. This operation is effected by means of a cup 101 to which the material is supplied in liquid form, and which is advanced to surround the Ylower end of the vessel.

,to its eighth, ninth and tenth o n the vessel, thereby this time also any When waxing to its operative position a connection with a pump 102 is opened, and as such pump is 'then by means of flexible tubing 103 in direct communication with the Waxing cup 101 the material in the latter is sqnirted-up into contact with the vessel being formed, and on c up`101 has been advanced the return stroke of the pump any surplus of the material is drawn back'into the cup 4and so to thel reservoir.- I

-Tlie advance and subsequent withdrawal l 'of the waxing cup to and from its operative position may be eiiected byemeans ofI .a camv 104 connected with and consequently operated by the same means as l'iereinbet'ore` described in connection with the advanceand withdrawall /df the armv 84 carrying the rolling and crimping mechanism, such cam 104 acting on a roller 105 connected with the waxing mechanism and so causing the lever 10g carrying the latter vto turn on its; pivot J6 Afterthe'waxin of the lower part of the vessel has been e ected .as just described, and Vwhich as stated takes --place at the seventh position of the carrier, .may asin the arrangement illustrated move out' any further operations being carried out upperedge is subsequently ,turned inwardly `for the purpose of strengthening it and imf` proving its appearance. vThepasting apparatus comprises a -font or tubular reserxoir 121 having a rotating s indle 123 passing therethrough, such spin `le carrying at its forward end a conical head 122'which when the apparatus is advanced to its operative position engages the inner surface of the vessel. This engagement and the consequent tendency of the head 122 to remain stationa instead of revolving with spindle 123, is

giving the paste which l the latter ositions withutilized to bring. into action an eccentric bushing supporting the forward end of aste font 121., such forwardend being therey caused to rock Leccentrically and roll around the inner surface of the upper edge of the vessel, and as such forward mais pcrfci'ated'and covered with felt orthe like such inner surface will thus be evenly pasted fall around.

The rotary -movementfof the spindle of the pasting mechanism is communicatedthereto by bevel gears 124 and 125l receiving motion from shaft 23 by .means of a chain wheel mounted thereon and communicating its motion to the shaft on which bevel i inion 147 hereinafter referred to isfmounte the motion of which is in turnftransmittedto the.

spindle of the pasting mechanism by .a chain and chain wheels.

The lever 136 on-whichthe pasting meeh-l anism 'is mounted .has a reclprocating orl backward and .forward movement `imparted to it through lever 137 by means of cam'138 gages a roller 139 carried by a lever'140 pivoted at 141 on the frame of the machine v mounted on shaft 23, andwith which ento the. same pivot as lever 137,.'which. it

' therefore turns with it.

In order that the paste hfont 4121 maybe alcllvanced and retracted in thei axial line of t e position in'which such paste font is`to operate, the lever 136 carrying same is provided with airarm 142 the-roller of which bears on an inclined-surface 143 secured to the frame of the machine. It will be seen that when thereby cause the raising of the forward or operating end of the paste font and its con' the paste 'font is being withdrawn Vfrom the .position shown in Fig. 1 theroller on arm 142 will ride up the inclined plane 143 and sequent withdrawal without damaging the vessel.

- Mc'ckcmismA for turning n upper allya- On this movement being completed the carrier moves another step forward, bringing the vesselto the twelfth position, where. its

' movement' is imparted tospindle 145'carrying the-crimping head 144 by means of bevel gears 147 and 148 by chain gearing' from shaft 23 as previously described,`and such spindle also carries' at' its forward .end a cone platef-149 which enters and fits the vessel and thereby. insures the' correct positioning of the crimping head. The forward face of the latter is formed with a groove. of

semi-circularsectiom into whichV the upper edge of the vessel enters as the crimping' head is advanced,`rollers having a circumferential groove of similar form being if dei `sired mounted across such groove in `the head, so that the upper ed cof the vessel comin into contact therewit ,Wlll be turned 1 in an 4over by 'the combined effects of the sha e ofthegrooves in theV head and rollers an( the rotary and forward movements im.

parted to suchhead, and as the upper partJ of the vessel has been previously pasted, `as described, the parts turned in will adhere to pockets 41 when the latter are in the the sidcs. J When'the turning'in or crimping has been effected to the, desired .extent the frame 146 is retracted, andthe carrier 42 ,then moves forward again, but `no further operations are performed at thethirteenth and'fourteenth positions, thereby giving the pasted and turned in upper edge time to4 dry and set.` Moham'sm desired configuration, which in the preferred form comprises a groove around the inner surface, into which a lid is to befitted when in use, anda shoulder or projection around the outer surface by means of which jamming of the vessels is prevented when a numben are'nested together for convenience in storage and transport. For the purpose` of carrying out this rolling operation ahead 150 having its outer conical surface of the necessary configuration to impart the dcsired shape to the vessel by contact with the 'inner surface of the latter, is preferably employed, and is mounted in eccentric relation to a rotating spindle 151 to which motion-is communicated by means of beviel Y, for rolling out upper edgef-y .At the lifteenth position of the. carrier the y upper part of the vessel is rolled' `out to the earlng 1.52 and4 a chain and chain whee s 153.- v These: parts are so arrangednd supported on a lever 154 -pivoted .at 155 that when such' lever iscaused to advance by means of cam 156 acting on lever'157 pivoted to the casing of the rolling mechanism the 4head 150 will enter the turnedV in top of the vessel in pocket 41`and when in position therein will its eccentric mountingb causing it to roll around the entire inner surface' of the upper edge of the vessel and impart the. desired 'form to the latter... .The rolling apparatus is then withdrawn andthe carrier 42 per-` mitted to make its 4next movement. The

spindle 151 of this rolling apparatus may be 4formedwith a quick Screw thread 151a withwhich va' nut 151b engages, such nut not being a` cam -or in any other suitablev manner at the pr'ofper times. This longitudinal movethe nut in relation to the screwon spindle -151 will turn the latter and thereby ment -o move the operatinghead '150. carried on the 1 00 be caused to make contact with one side thereof, the continued operation, owing to -capable ofturning on the screw, but being- V able -to move lon 'tudinally vin relation thereto, 'which longitudinal movement may' 'be imparted to itfby a lever 151 operated by 115 eccentric end thereof into or out of contact with the side of the receptacle in pocket 41. n War-ag inside of vessel-Nothing, is done at the sixteenth position, bntat the seventeenth means are .provided for applying paraflin wax or like material to the entirev inner surface ofthe vessel. The apparatus employed for this purpose is caused to 'ad-- vance to and recede from its operative posit1on by. cam 65 onshaft 16 throughlevers ,66 and j160', and comprises a felt or like cov` cred perforated cone 161 which Jwhen in its advanced position approximately fits the inside of the vessel, and when thus advanced cam 250 on'shaft 23 operates pump 102 of the reservoir inl Which the bolling paraffin wax or like material is contained, so that such Wax will be forced out through the perforations in the cone and the felt or other material covering the` latter, thus forcing such wax inato contact with the sides of the' vessel. Any surplus will drain into the return pan 1.62 which .connects with the reservoir by means of a pipe 1641. The spindle 163 on'which the perforated cone 161 is mounted preferably has a rotary motion imparted thereto, as by means of ay chain 164 and chain wheels 165 and 166, the latter of v which is mounted on shaft 167 receiving 168 and 1,69. l

Delivery' pf completed tesseZs. -When the motion from shaft 63 through bevel gears f'wax or other material applied las described has been allowed t0 dry, which is effected during the movement of the carrier 42 from ,the seventeenth to the nineteenth position, the vesselis complete and ready for delivery from'the carrier. The first step 'for this purpose takes place at the nineteenth `position, where projection 270 of lever 17 comes in contact with the bottomv of the vessel When such lever is actuated as hereinbefore described. .The vessel is thus disengaged from the pocket, and its gravity will then` cause it to slip .'down almost out of the p'ocket 41 intocontact with the inclined portion of a deliveryboard 170, and it rests in this inclined position, asshown in Fig. l, until the carrier makes its next movement toward the twentieth position, when the vessel Will be caused to tilt' forward until it' rests in an uprightbut inverted position'- on the flat .portion of delivery board 170, when one or other of its edges restingthereon is engaged by a pusher or other suitable means which may extend up through a slot in such board. The pusher' conveys it to a suitable position aty one side of the machine, from v which 1t may be taken by hand, and a number being, if desired,inested together may be ystored away ready for use. After the pocket in which the vessel has been formed has delivered the completed article as described, the carrier 42 moves on through its twentieth andtWenty-irst posi-' tions, and finally arrives back at its starting point ready for a furtheroperation, y

It w1ll Ibe understood that each ofthe twenty-one pockets 41 on carrier 42 is supphed with a rolled blank as it arrives at the v initial or starting position, `so that when in operation each pocket is occupied by a vessel m'process of formation, all 'the different steps in such formation hereinbefore described being carried voutI simultaneously on thc blanks in the respective pockets l and as, as hereinbefore stated, the whole o the appliances for effecting the `diiferent operations are preferably duplicated on each side of carrier 42, it will be seen that when in will be delivered at the completion'of each step in the intermittent rotary movement [imparted to such carrier.

I wi lh 't to be understood that I dof not desire to limit myself to any special form or arrangement of. the various appliancesy for carrying out the different operations in the process of manufacture herein'before described, nor of the means by which such `appliances,are actuated or caused to assume 70 full running order two completed vesselsv their operative and non-operative positions and further it must b understood .that although in most cases it will be foundadvisable to effect the Whole of such different operations on the vessel,Y for certain purposes some thereof, as for instance the asting of the bottom` orv top on both, an -the waxing of theoutside or'insidepor both, may be omitted, if desired.

What I claim as my invention and desire to secure by Letters Patent is A1. In a machine for the manufacture of paper vessels' the combination of a holder f for the blanks to form the sides of the vessel, means for feeding in and roll' up the blanks, suctionapparatusl for ta ing such blanks-one at atme from the holder.-

and. delivering'them vto the means for feeding in and rolling up the blank, meansfor turning in the `bottom edge of the rolled up blank, means for inserting the bottom piece and securing it in position by a rolling operation, means' for turning in the upper edge of the vessel, means for rolling out such upper edgeto the desired configuration, and means for delivering the completed vessels, substantially as specied'.

3.y In a machine for lthe manufacture of paper vessels the combination of a holder l for the blanks to form the sides of the vves-- sel, a pasting board, means fortaking such blanks 'one at atime from'the holder and delivering them to the pasting board, means for applying adhesive tothe -surfaceof the blank, means for -feeding 1n the pasted'blank and rolling same up, 4means `for turning in the bottom edge of the rolled blank, means for inserting vthe bottom piece and securing it in position by a rolling operatiommeans.

A edge of the rol-led` blank, means for turning in such. lower edge, nreansv for inserting the bottom piece and securing it in position by a rolling operation, means for turning -in the upper edge of the vessel, means for rolling' out such-upper `edge ,to the desired configuration,- and means fordelivering the cornpleted vessels, substantially as specified.

5. In a machine for the manufacture of paper; vessels the combination of means for feeding in androlling up the blank to form the' sides of the vessel, means for turning in the bottom edge thereof, means for forni'- ing up the bottom piece to be inserted therein, means' for` inserting such bottom piece and securing it in position by a rolling operation, means'for turning in the upper edge of the vessel, means for rolling out such upperedge to the desired configuration, and means for delivering the completed vessels, substantially as specified. f

6. Ina machine for the manufacture of paper'vess'els the combination of means for feeding in and rolling up the blankI to form the sides of the vessel, means for turning in the bottom edge thereof, means for forming up the bottom piece to be inserted therein, means for conveyin such bottom piece into the rolled up blau and for holding it in position therein, means for securing such bottom piece and for completing `the formation of the bottom by a rolling operation, means for turning in theupper edge of the vessel, means for rolling out such upper .edge to the desired configuration, and means for delivering the vcompleted vessels, substantially as specified.

7. In a machine for'the manufacture of paper vessels the combination of means for feeding in and rolling up the blank to form the sides of the vessel, means for turning in the bottom edge thereof, means for inserting vthe bottom piece 'and securing it in position by a rolling operation, means for treating the outer surface of the lower 'part of the vessel with sterilizing and waterproofing material such as paraiiin wax, means for turning in the upper edge of the vessel,

l means for rolling out such upper edge to the desired configuration, and'means for delivering the completed Vessels, substantially as specified.

8. In a machine for the manufacture of paper Vessels thecombination of means for feedingin and rollin up the blank to form the sides of the Vesse means for .turning in vthe bottom edge thereof, means for inserting 4the bottom piece and securing it in position by a rolling operation, means for applying the bottom edge thereof, means for inserting the bott-om piece and securing it in position by a rolling operation, means for turning inj the upper edge of the vessel, means Vfor rolling out such upper edge to tliedesired configuration, means for treating the inner surface of the vessel with sterilizing and waterproofing material such as paraffin wax, and means for delivering the completed vessels, substantially as specified.

10. In a machine for thel manufacture of paper vessels the combination of a holder for the blanks toA form the` sides of th'evessel; means for taking such blanks one at a time from the holder and delivering'them to a pasting board, means for applying adhesive to the surface of the blank, means for feeding in the pasted lblank and rolling saine up, means for applying adhesive to ythe linner surface of the lower edge of the rolled blank, fnieans for turning in s ueh lower edge, means for forming, conveying, inserting andholding the bottom piece and for securing saine and completing the formation ofthe bottom by a rolling operation, means for treating the outer surface of the lower part of the vessel with sterilizing and Waterproofing material, means for applying adhesive to the inner surface ofhthe. upper edge of the vessel, means for turning in such upper edge, means for. rolling out s uch upper edge to the desired configuration, means for treating tlie inner surface of the .vessel with sterilizng and. waterproofing material, and means for delivering the com-v pleted vessels, substantially as specified.

11. In amachine fortlie manufacture of i paper vessels the combination of means yfor feedin in applying adhesive to and rolling up thegblanks to form the sides of the vessel, means lfor applying yadhesive to the lower and upper edges of the inner surface of the rolled blank, means for 'turning'in the lower edge and for subsequently insert- "ing lthe bottom piece and forvsecuring it in position by a rolling operation, lmeans for turning inthe upper edge and for subsequently rolling same out to the desired coniiguration, means for treating the outer andl iso inner of-/th'e vessel with sterilizing ,and vwaterprootngmaterial, .and means for ing the *completed vessels,- substan- .l 12. In a machlne for the manufacture of paper vessels the combination of-'means for' feeding in and rolling up the blank to form I' the sides of tlievesl, means for turning in thebottom edge thereof, means for inserting therbottom piece and securing it vin position by a rollingoperation, means for turning in the .upper edge of the'vessel, means Afor rolling out such upper edge to the desired coniguration, means for applying heat to the 'vessels in process of formation, and meansV for delivering the completed vessels, substantially as spec1iied. 13. In'a `machine for the manufacture of paper vessels the combination of means for feeding the blank` to form the sides ofthe vessel, means for applying adhesive to such l blank, means `for rolling `up -such blank, ifrneans for turning in the bottom edge of the, rolled blank, means for inserting the bottom` piece and 'securing it in positionby a rolling Y operation, means for turning in the upper edgelgof the vessel, means for rolling out such upper A edge to the desired com'iguration, means for applying heat to the vessels inprocess of formation, and means forjdelivering the completed vessels, substantially as specified. j. Y 14. In a machine for the manufacture of upaper vessels the vcombination of means-for feeding in and rolling up the blank toform the sides-of the vessel, means for applying adhesive tothe inner .surface of the lower i edge of the rolled blank, means for turning in such lower edge, means for inserting the bottom piece and securing it in position by a rolling operation, means for turning in the upper edge of the' vessel, means for 'rolling out such upper edge to the desired conguration, means for applying heat to thevessels in process of formation, and meansfor del'ivering the completed vessels, substantially as specified.

15. In a machiney .for the manufacture-.of

paper vessels the combination of means Vfor feedin 'in and rollin up'the blank td form` the si esof thev yvesse means for turning in i the lowerl edgeofthe'rolled. blank, means for inserting'the bottom piece andllsecuring it in as specified position by a rolling operation, means for applyingadhesive to the inner surface of the upper edge ofthe vessel, means for turning in such upperedge, means for rolling out such'upper edge to the desired configuration, means for applying heat to the vessels` in process of formation, and meansfordesubstan'tially livering the completed vessels,

16. In a machine for themanufacture of paper vessels vthe combination ofmeans for feeding in and rolling uprthe blank Ato form the of the vessel, means forturning in the lower edge of the rolled blank, means -for inserting the bottom' piece fand securing. 4it in position by a rolling operation, means for treating the outer surface of thevess'elV with sterilizing and waterproong material Vsuch as paraiin wax, means for turning in theupper edge of the vessel, means'for rolling out such upper edge' to the desired conlower edge of 'the rolled blank, means for l l inserting the bottom piece and securing it in posit-lon by a rollingloperation, means for turning in the -upper edge of the vessel,

means for rolling out such upper edge to the desired'confguration, means-for treating the lnner surface of the vessel with sterilizinv` and Waterproofing material such as paratfn wax, means for applying hea-t to the vessels iii process of formation, and means for delivering the completed vessels, substantially as specified,

18. In a machine for the manufacture of vpaper vessels the combination of'a holder Afor the lblanks to form the sides of the vessel, a pasting board, means for taking suchblanksone at a time from the holderand dellveringttliem'to the pasting board, means for applying adhesivetol the surface of the 'l blank, means for feeding in the pasted blank and rolling same up, means for applying adhsive tothe inner surface of the lower edge v of the vessel, `means for turning in such lowerjedge, meansY for forming, conveying,

inserting andholding the bottom piece land 'for securing same and completing the formation of the -bottomby a. rolling operation, means for treating the outer surface of 4the lower part of the vessel with sterilizing and waterproofing material, means for applying adhesive to the inner surface of the upper edge of the vessel, means for turning in such v upper edge, means forrolling out such up'- per edge to the `desired configuration, means for treating the inner surfaceof the vessel with sterilizing and Waterproofing material, means for applying heat to thev vessels in process of formation, and means for delivering'. the completed vessels, .substantiallyl as specified. y

19. In a machine for'the manufacture lof paper vessels the combination of .means for feeding in and rolling up'the blank to. form the sides of the vessel, means forl turning" in the'bottom `edge1thereof,' means for insertlng the bottom piece and securing'it in position' by a rolling operation, means for turning vin the upper edge of the vessel,

mea-ns for rolling out such upper edge to the desired. configuration, meansy for delivering the completed vessels, and a carrier for bringing' into relative position the vessels in process of formation and .the different mechanisms for operating-thereon, substan tially as speeifed. 20. In a machine for the manufacture of `paper vessels the combination of means for feeding in and 1olling11p-tl1e blank to form t-he s'ides of the vessel, means for applying adhesive to the inner surface of the lower edge thereof, means for turningv in such' lewer edge, means for inserting the bottom piece and securing it in position by a rollin v operation, means for turning in the upper edge-of the vessel means for rolling out' such upper edge to the desired conguration,

means for-delivering the completed vessels,`

land a carrier for bringing into relative positionfthe vessels in process of formation and the different mechanisms fdr operating thereon, substantially as specified. i

21. In a machine .for the u'ianufacture of paper vessels the combination of means for feeding in and rolling` up the blankto form the sides of the vessel, means for turning in l the lower edge ofthe rolled up blank, means for inserting the bottom piece and securing it in position by a rolling operation, means for applymg adhesive to the inner surface of the upper edge of the vessel, means forl turning inZ such. upper edge, means for rolllng out such upper edge to the desired configuration, means for delivering the completed -vessels,and a lcarrierfor bringing into relative position the vessels in process 'f' -vessel, means for rolling out such upper edge .of formation andthe different mechanisms jfor operating thereon, substantially as speci-l ed.

22. In a'macliine for the manufacture of paper Vessels the combination of means for feeding in and rolling up the blank to form the sides of t-he vessel,.means for turning in the lower edge ofthe rolled up blank, means for inserting the bottom piece and securing it in lposition by a rolling operation, means for treating the outer surface ofthe vessel ,with sterilizing andvvaterproofing material, fmeans for turning in the upper edge f the l .to athedesired configuration, means for delivering the completed vessels, and a carrier for bringing into relative position the ves sels iii process of formation and the'different mechanisms for. operating thereon,`substan tially `as specified.

23. 'In a machine for thecvmanufaeture of paper vessels the combination oflmeans for feeding in and rolling up the blank to form the sid'l of the vessel, means for turning in v the lower edge of the rolled up blank, means forinserting. the bottom piece and securing it in vposition by a rolling-operation,means for turning in the upper edgeof the-vessel,

means for rolling out such upper edge to the desired configuration means for treating the inner surface of the vessel with sterilizing and Waterproofin material, means for delivering the comp et'ed vessels, and a carrier for bringing into relative position the ves sels 1n process of formation and the different mechanisms for operating thereon, substantially as specified. Y

24. In a machine for the manufacture of paper vessels the combination of means for feeding in, applying adhesive'to, and rolling up the blanks to form the sides of the vessel, means fer applying adhesive to the lower and upper edges of the inner surface of the rolled blank, means for turning in the lower edge aand for subsequently securing it in position by a' rolling operation, means .for turning in the upperedge and for subsequently rolling same out to the desired configuration, meansfor treating t-he outer and inner surfaces of the vessel with sterilizing and,waterproofing material suc-h as paraflin wax, means for delivering the' completed vessels, and a carrier forbringing into relative position the vessels in process of formation and they different mechanisms for operating thereon; substantially as speeified.

In a' machine for the manufacture of paper vessels the combination of means for, feedlngfin and rolling up the blank to forml the sides of the vessel, means for turning in .the bottom ,edge-thereof', means for insertingl the bottom piece and securing it in position a by a rolling operation, means for turning in the upper edge of the vessel, means for rolling out such upper edge `to the desired con-'- iguratiom means for delivering the completed vessels, a carrier for bringing intov relative position the vessels in process of formation and the different mechanisms for operating thereon, andv means for cont-rolling' themovement of the movable carrier, substantially as specified.

2G. In a machine for the manufacture of paper vessels the combination of means for feeding in and rollmg up the blank yto form the sides of the vessel, means. for applying paper vessels the combination of means for 27. In a'm-achine for the manufacture of.

ilo

feeding in and rolling up the blank to form the sides of the vessel, means for turning inthe lower edge of the rolled up blank, means for inserting the bottom piecefand securing it' in position by a rolling operation, means for applying adhesive to the inner surface of the upper edge of the vessel,

Y means for tunning in sich upper edge, means for rolling out such upper edge to tlie desired configuration, means for delivering the completed vessels, a carrier for bringing into relative position the vessels in process of formation and the different mechanisms for p perating thereon, and means for control- ,111g substantially as specified. l

28. In a machine for the manufacture of paper vessels the combination of means for feeding inv and rolling up the blank to form the sides of the vessel, means for turning in the lower edge of the rolled up blank, means for insertingthe bottom piece and securing it in position by a rolling operation, means for treating the outei` surface of the vessel with. sterilizing and Waterproofing ma- "terial, means for turning in the upper edge of the vessel, means for. rolling out such upper edge to the desired coniguratiom.

means 'for delivering the completed vessels, a .carrier for bringing into relative position `the vvessels in process of formation and the means for inserting the bottom securing it in position by a .rolling operation, means for turning in the upper edge of l`the vessel, means forro ling outv such upper edge to the desired configuration, means for treating the inner surface of the Vessel' with sterilizing and' Waterproofing material, means for delivering the completed 1 vessels, a carrier,Y for bringing into relative the movement of theI movable carrier,4

, for operating thereon,

position the vessels in process of formation andthe different mechanisms for operating thereon, and means for controlling. the movement of the movable carrier, substantially as specified. v

30. In a machine for the manufacture of paper vessels the combination of means for feeding in, applying adhesive to, and rolling up the blanks to form the sides of the vessel, means .for applying adhesive to= the lower and upper edges of the inner surface of the rolled blank, means for turning in the lower edge and for subsequently securing it in position by a rolling operation, means for turning infthe upper edge and for subsequently 'rolling' same out -to the desired configuration, means for treating the .outer and inner surfaces of the vessel with sterilizing and waterproofing material such as paraiin wax,`means for delivering the completed vessels, a' carrier for bringing into relative position the vessels in process of format-ion and the different mechanismsl for operating thereon, and ,means for' controlling the movement of the movable carrier, substantially as specified.

3l. In a machine for the maiiufaetureof Apaper vessels the combination of means for f feeding in and rolling up'` the blank to form the sides ofr thevessel, mea-nsA for turning in the bottom edge thereof, means for inserting Ithe bottom piecefand securing it' in position by -a rolling operation, means for turning in the upper edge of the vessel, means for rolling out such upper edge to the desired configuration, means for delivering the completed vessels, a carrier for bringing into relative position the vessels in process of formation-*and the different mechanisms ing heat to 'such vessels, substantially as' and for the purpose specied.

In testimony whereof I afhx my signature in presence of two witnesses. `ELMER ZEBLEY TAYLOR.

Witnesses: A D. Jamison, A.- NUTTING. v

and means for'apply- 

